Spinel ferrite nanostructures for energy storage devices / edited by Rajaram S. Mane, Vijaykumar V. Jadhav.
Contributor(s): Mane, Rajaram S | Jadhav, Vijaykumar V.
Material type: BookSeries: Micro & nano technologies: Publisher: San Diego : Elsevier, 2020Description: 1 online resource (204 pages).Content type: text Media type: computer Carrier type: online resourceISBN: 0128192380; 9780128192382.Subject(s): Nanostructured materials | Nanostructures | Nanomat�eriaux | Nanostructured materialsAdditional physical formats: Print version:: Spinel Ferrite Nanostructures for Energy Storage Devices.DDC classification: 620.1/15 Online resources: ScienceDirectPrint version record.
Front Cover -- Spinel Ferrite Nanostructures for Energy Storage Devices -- Spinel Ferrite Nanostructures for Energy Storage Devices -- Copyright -- Contents -- Contributors -- 1 -- Basics of ferrites -- 1.1 Introduction -- 1.1.1 Classification of energy storage devices -- 1.1.2 Fuel cells -- 1.1.3 Batteries -- 1.1.4 Electrochemical supercapacitors -- 1.1.5 Ferrites -- 1.1.6 Magnetism in ferrites -- 1.2 Magnetic materials -- 1.3 Types of magnetic materials -- 1.3.1 Diamagnetic -- 1.3.2 Paramagnetic -- 1.3.3 Ferromagnetic -- 1.3.4 Antiferromagnetic -- 1.3.5 Ferrimagnetic
1.4 Properties of magnetic materials -- 1.4.1 Saturation magnetization -- 1.5 Spinel ferrites -- 1.6 Classification of spinel ferrites -- 1.6.1 Normal spinel -- 1.6.2 Inverse spinel -- 1.6.3 Mixed spinel -- 1.7 Conclusions -- References -- 2 -- Ferrite nanostructures: synthesis methods -- 2.1 Introduction -- 2.2 Methods of synthesis -- 2.2.1 Mechanical method: ball milling -- 2.2.2 Chemical methods -- 2.2.2.1 Sol-gel auto-combustion -- 2.2.2.2 Coprecipitation -- 2.2.2.3 Modified combustion-coprecipitation method -- 2.2.2.4 Combustion method -- 2.2.2.5 Citrate method -- 2.2.2.6 Hydrothermal method
2.2.2.7 Electrodeposition method -- 2.2.2.8 Chemical bath deposition -- 2.2.3 Spraying methods -- 2.2.3.1 Spray pyrolysis -- 2.2.3.1.1 Precursor -- 2.2.3.1.2 Atomization -- 2.2.3.1.3 Evaporation period -- 2.2.3.1.4 Substrate temperature -- 2.2.3.1.5 Solvents -- 2.2.4 Film formation mechanism -- 2.2.5 Electrospun -- 2.3 Conclusions -- References -- 3 -- Properties of ferrites -- 3.1 Introduction -- 3.2 Classification of ferrites -- 3.2.1 Types based on crystal structure -- 3.2.2 Types based on magnetic properties -- 3.3 Properties of spinel ferrites -- 3.4 Conclusions -- References
4 -- Types, Synthesis methods and applications of ferrites -- 4.1 Introduction -- 4.2 Classification of ferrites -- 4.2.1 Soft ferrites -- 4.2.2 Hard ferrites -- 4.3 Structural classification of ferrites -- 4.3.1 Spinel ferrites -- 4.3.2 Garnet ferrites -- 4.3.3 Hexagonal ferrites -- 4.3.4 Ortho ferrites -- 4.4 General properties -- 4.5 Synthesis methods -- 4.5.1 Sol-gel -- 4.5.2 Precipitation -- 4.5.3 Hydrothermal -- 4.5.4 Solvothermal method -- 4.6 Applications -- 4.6.1 Solar cells -- 4.6.2 Perovskite solar cells -- 4.6.3 Electrode materials for lithium ion batteries -- 4.6.4 Supercapacitors
4.6.4.1 Symmetric supercapacitors -- 4.6.4.1.1 Electric double-layer capacitors -- 4.6.4.1.2 Pseudocapacitors -- 4.6.4.2 Asymmetric supercapacitors -- 4.6.4.3 Hybrid supercapacitors -- 4.6.4.3.1 Hybrid electrolytic capacitors -- 4.6.4.3.2 Composite capacitors -- 4.6.4.3.3 Battery-like capacitors -- 4.6.5 Water splitting processing -- 4.6.6 Gas sensors -- 4.6.7 Humidity sensors -- 4.7 Conclusions -- Acknowledgment -- References -- 5 -- Ferrites for Electrochemical Supercapacitors -- 5.1 Introduction -- 5.2 Ferrites -- 5.2.1 Classification of ferrites
5.3 Ferrites in electrochemical supercapacitors
Includes index.
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